The N-Methyl-D-aspartate receptors (NMDAR) are key players in both physiological and pathological synaptic plasticity because of their involvement in many aspects of neuronal transmission as well as learning and memory. The contribution in these events of different types of GluN2A-interacting proteins is still unclear. The p140Cap scaffold protein acts as a hub for postsynaptic complexes relevant to psychiatric and neurological disorders and regulates synaptic functions like the stabilization of mature dendritic spine, memory consolidation, long-term potentiation, and depression. Here we demonstrate that p140Cap directly binds the GluN2A subunit of NMDAR and modulates GluN2A-associated molecular network. Indeed, in p140Cap knockout male mice, GluN2A is less associated with PSD95 both in ex vivo synaptosomes and in cultured hippocampal neurons and p140Cap expression in knockout neurons can rescue GluN2A and PSD95 colocalization. p140Cap is crucial in the recruitment of GluN2A-containing NMDARs and, consequently, in regulating NMDARs intrinsic properties. p140Cap is associated to synaptic lipid-raft (LR) and to soluble postsynaptic membranes and GluN2A and PSD95 are less recruited into synaptic LR of p140Cap knockout male mice. g-STED microscopy on hippocampal neurons confirmed that p140Cap is required for embedding GluN2A clusters in LR in an activity-dependent fashion. In the synaptic compartment p140Cap influences the association between GluN2A and PSD95 and modulates GluN2A enrichment into LR. Overall, such increase in these membrane domains rich in signalling molecules results in improved signal transduction efficiency.SIGNIFICANT STATEMENTHere we originally show that the adaptor protein p140Cap directly binds the GluN2A subunit of NMDAR and modulates the GluN2A-associated molecular network. Moreover, we show for the first time that p140Cap also associates to synaptic lipid rafts and controls the selective recruitment of GluN2A and PSD95 to this specific compartment. Finally, g-STED microscopy on hippocampal neurons confirmed that p140Cap is required for embedding GluN2A clusters in lipid rafts in an activity-dependent fashion. Overall, our findings provide the molecular and functional dissection of p140Cap as a new active member of a highly dynamic synaptic network involved in memory consolidation, LTP and LTD that are known to be altered in neurological and psychiatric disorders.
p140Cap regulates the composition and localization of the NMDAR complex in synaptic lipid rafts
Angelini, Costanza;Morellato, Alessandro;Alfieri, Annalisa;Pavinato, Lisa;Cravero, Tiziana;Bianciotto, Olga Teresa;Salemme, Vincenzo;Natalini, Dora;Centonze, Giorgia;Raspanti, Alessandra;Valdembri, Donatella;Serini, Guido;Marcantoni, Andrea;Giustetto, Maurizio;Turco, Emilia;Defilippi, Paola
2022-01-01
Abstract
The N-Methyl-D-aspartate receptors (NMDAR) are key players in both physiological and pathological synaptic plasticity because of their involvement in many aspects of neuronal transmission as well as learning and memory. The contribution in these events of different types of GluN2A-interacting proteins is still unclear. The p140Cap scaffold protein acts as a hub for postsynaptic complexes relevant to psychiatric and neurological disorders and regulates synaptic functions like the stabilization of mature dendritic spine, memory consolidation, long-term potentiation, and depression. Here we demonstrate that p140Cap directly binds the GluN2A subunit of NMDAR and modulates GluN2A-associated molecular network. Indeed, in p140Cap knockout male mice, GluN2A is less associated with PSD95 both in ex vivo synaptosomes and in cultured hippocampal neurons and p140Cap expression in knockout neurons can rescue GluN2A and PSD95 colocalization. p140Cap is crucial in the recruitment of GluN2A-containing NMDARs and, consequently, in regulating NMDARs intrinsic properties. p140Cap is associated to synaptic lipid-raft (LR) and to soluble postsynaptic membranes and GluN2A and PSD95 are less recruited into synaptic LR of p140Cap knockout male mice. g-STED microscopy on hippocampal neurons confirmed that p140Cap is required for embedding GluN2A clusters in LR in an activity-dependent fashion. In the synaptic compartment p140Cap influences the association between GluN2A and PSD95 and modulates GluN2A enrichment into LR. Overall, such increase in these membrane domains rich in signalling molecules results in improved signal transduction efficiency.SIGNIFICANT STATEMENTHere we originally show that the adaptor protein p140Cap directly binds the GluN2A subunit of NMDAR and modulates the GluN2A-associated molecular network. Moreover, we show for the first time that p140Cap also associates to synaptic lipid rafts and controls the selective recruitment of GluN2A and PSD95 to this specific compartment. Finally, g-STED microscopy on hippocampal neurons confirmed that p140Cap is required for embedding GluN2A clusters in lipid rafts in an activity-dependent fashion. Overall, our findings provide the molecular and functional dissection of p140Cap as a new active member of a highly dynamic synaptic network involved in memory consolidation, LTP and LTD that are known to be altered in neurological and psychiatric disorders.
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JNS2022.full.pdf
Open Access dal 31/03/2023
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